博文
被PRE接受发表文章一篇: 神经系统中振动共振新机制
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Vibrational resonance induced by transition of phase-locking modes in excitable systems
AUTHOR(s): Yang,Lijian / Liu,Wangheng / Yi,Ming(通讯作者)
Abstract: We study the occurrence of vibrational resonance as well as the underlying mechanism in excitable
systems. The single vibration resonance and vibration bi-resonance are observed when tuning the
amplitude and frequency of high-frequency force simultaneously. Furthermore, by virtue of the
phase diagram of low-frequency-signal-free FitzHugh-Nagumo model, it is found that each maxima
of response measure is located exactly at the transition boundary of phase patterns, therefore, it
is the transition between different phase-locking modes that induces vibrational resonance in the
excitable systems. Finally, this novel mechanism is verified in the Hodgkin-Huxley neural model.
Our results provide new insights into the transmission of weak signals in nonlinear systems, which
are valuable in engineering for potential applications
systems. The single vibration resonance and vibration bi-resonance are observed when tuning the
amplitude and frequency of high-frequency force simultaneously. Furthermore, by virtue of the
phase diagram of low-frequency-signal-free FitzHugh-Nagumo model, it is found that each maxima
of response measure is located exactly at the transition boundary of phase patterns, therefore, it
is the transition between different phase-locking modes that induces vibrational resonance in the
excitable systems. Finally, this novel mechanism is verified in the Hodgkin-Huxley neural model.
Our results provide new insights into the transmission of weak signals in nonlinear systems, which
are valuable in engineering for potential applications
https://blog.sciencenet.cn/blog-396906-588273.html
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